Transfection of hairpin small interfering RNA expression vector targeting rat nuclear factor (NF) (κB) inhibits rat cell proliferation induced by NF-κB signal pathway activation

Construction of a CTGF and RFP-coexpressed renal tubular epithelial cell and its application on evaluation of CTGF-specific siRNAs on epithelial-mesenchymal transition

OBJECTIVE

To construct a connective tissue growth factor (CTGF) and red fluorescent protein (RFP)-coexpressed renal tubular epithelial cell that can be used to quantitatively evaluate the CTGF-induced epithelial-mesenchymal transition (EMT).

METHODS

The CTGF and RFP coding sequences were linked with a "2A" peptide, cloned into an expressing vector, and the HK-C2AR cell clone, which could express CTGF and RFP, were selected from the HK-2 cells after the recombinant plasmid transfection. Then, the CTGF-induced EMT in this cell line was determined, to further determine the association of RFP fluorescence intensity with the CTGF expression or CTGF-induced EMT. CTGF-specific ribonucleic acid (RNA) interference was also used to reconfirm the association.

RESULTS

The constructed HK-C2AR cells could stably express RFP and CTGF proportionally, and the CTGF expressed in the cell line could induce EMT of cells, whereas the RFP expressed in the cell could exhibit bright red fluorescence after excitation. After the silence in CTGF, the RFP expression was also decreased, and the CTGF-induced EMT was also inhibited.

CONCLUSION

The CTGF and RFP-coexpressing renal tubular epithelial cell, HK-C2AR, could be used to quantitatively evaluate CTGF-specific small interfering RNAs on EMT by quantitatively detecting the RFP expression. Also, this cell line could be used to quantitatively determine the mechanism of CTGF-induced EMT in renal tubular epithelial cells.